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Toxicity, Absorption, and Translocation of Soil-Applied Chlorimuron in Yellow and Purple Nutsedge (Cyperus esculentus and C. rotundus)

Published online by Cambridge University Press:  12 June 2017

Krishna N. Reddy  and
Leo E. Bendixen
Krishna N. Reddy
Affiliation:
Dep. Agron., The Ohio State Univ., Columbus, OH 432310
Leo E. Bendixen
Affiliation:
Dep. Agron., The Ohio State Univ., Columbus, OH 432310
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Abstract

The activity of soil-applied chlorimuron in yellow and purple nutsedge was studied in greenhouse and laboratory experiments. Soil-applied chlorimuron decreased tuber sprouting by 80% in yellow nutsedge and by 30% in purple nutsedge at 60 g ai/ha. Chlorimuron decreased shoot emergence by 53 to 83% and shoot growth by 85 to 99% in both species at rates as low as 10 g/ha. Previous exposure of tubers to chlorimuron-treated soil reduced tuber resprouting by 20 to 25% in herbicide-free soil at 60 g/ha in both species. There was no rate response in shoot emergence from tubers previously exposed to chlorimuron, but shoot dry weight decreased by 60 to 81% in both species at 60 g/ha. At 12 h after application, 47% of the total 14C applied to the shoot in yellow nutsedge and 32% of that applied in purple nutsedge were absorbed. However, less than 1% of the total 14C applied was translocated out of the shoot and into the roots and tuber in either species. In both species, 1.3% of the 14C applied to the roots and tuber was absorbed and 0.1% was translocated out of the roots and tuber into the shoot at 12 h after application. The pattern of root- and tuber-absorbed 14C distribution indicated that the 14C absorbed by the tuber remained in the tuber and that absorbed by the roots was translocated to the shoots.

Keywords

Chlorimuron, 2-[[[[(4-chloro-6-methoxy-2- pyrimidinyl)amino] carbonyl] amino] sulfonyl] benzoic acidyellow nutsedge, Cyperus esculentus L. ♯3 CYPESpurple nutsedge, C. rotundus L. ♯ CYPRODistributionphytotoxicitypreemergenceCYPESCYPRO
Type
Physiology, Chemistry, and Biochemistry
Information
Weed Science , Volume 37 , Issue 2 , March 1989 , pp. 147 - 151
Copyright
Copyright © 1989 by the Weed Science Society of America 

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References

Literature Cited

1. Andrews, F. W. 1940. A study of nutgrass (Cyperus rotundus L.) in the cotton soil of the Gezira. I. The maintenance of life in the tuber. Ann. Bot. 4:177193.Google Scholar
2. Armstrong, T. F., Meggitt, W. F., and Penner, D. 1973. Yellow nutsedge control with alachlor. Weed Sci. 21: 354357.CrossRefGoogle Scholar
3. Armstrong, T. F., Meggitt, W. F., and Penner, D. 1973. Absorption, translocation, and metabolism of alachlor by yellow nutsedge. Weed Sci. 21:357360.CrossRefGoogle Scholar
4. Bell, R. S., Lachman, W. H., Rahn, E. M., and Sweet, R. D. 1962. Life history studies as related to weed control in the Northeast. I. Nutgrass. Rhode Island Agric. Exp. Stn. Bull. 364. 33 pp.Google Scholar
5. Bendixen, L. E. 1973. Anatomy and sprouting of yellow nutsedge tubers. Weed Sci. 21:501503.Google Scholar
6. Bendixen, L. E. and Nandihalli, U. B. 1987. Worldwide distribution of purple and yellow nutsedge (Cyperus rotundus and C. esculentus). Weed Technol. 1:6165.CrossRefGoogle Scholar
7. Beyer, E. M. Jr., Duffy, D. J., Hay, J. V., and Schlueter, D. D. 1988. Sulfonylureas. Pages 117189 in Kearney, P. C. and Kaufman, D. D., eds. Vol. III. Herbicide Chemistry, Degradation, and Mode of Action. Marcel-Dekker, Inc., New York.Google Scholar
8. Claus, J. S. 1987. Chlorimuron-ethyl (Classic™): A new broadleaf postemergence herbicide in soybean. Weed Technol. 1:114115.Google Scholar
9. Dixon, G. A. and Stoller, E. W. 1982. Differential toxicity, absorption, translocation, and metabolism of metolachlor in corn (Zea mays) and yellow nutsedge (Cyperus esculentus). Weed Sci. 30:225230.Google Scholar
10. Hess, F. D. 1985. Herbicide absorption and translocation and their relationship to plant tolerances and susceptibility. Pages 191214 in Duke, S. O., ed. Weed Physiology. Vol. II. Herbicide Physiology. CRC Press, Boca Raton, FL.Google Scholar
11. Hoagland, D. R. and Arnon, D. I. 1950. The water culture method for growing plants without soil. Circ. 347. California Agric. Exp. Stn. 32 pp.Google Scholar
12. Holm, L. G., Plucknett, D. L., Pancho, J. V., and Herberger, J. P. 1977. The World's Worst Weeds. Distribution and Biology. Univ. Press of Hawaii, Honolulu. Pages 824, 125–133.Google Scholar
13. Keeley, P. E. and Thullen, R. J. 1974. Yellow nutsedge control with soil incorporated herbicides. Weed Sci. 22:378383.CrossRefGoogle Scholar
14. Knake, E. L., Appleby, A. P., and Furtick, W. R. 1967. Soil incorporation and site of uptake of preemergence herbicides. Weeds 15:228233.Google Scholar
15. Martin, R. A. and Edgington, L. V. 1981. Comparative systemic translocation of several xenobiotics and sucrose. Pestic. Biochem. Physiol. 16:8796.Google Scholar
16. Nandihalli, U. B. and Bendixen, L. E. 1988. Toxicity and site of uptake of soil applied imazaquin in yellow and purple nutsedges (Cyperus esculentus and C. rotundus). Weed Sci. 36:411416.CrossRefGoogle Scholar
17. Obrigawitch, T., Abernathy, J. R., and Gipson, J. R. 1980. Response of yellow (Cyperus esculentus) and purple (Cyperus rotundus) nutsedge to metolachlor. Weed Sci. 28.708715.CrossRefGoogle Scholar
18. Prendeville, G. N., Eshel, Y., Schreiber, M. M., and Warren, G. F. 1967. Site of uptake of soil-applied herbicides. Weed Res. 7:316322.Google Scholar
19. Stoller, E. W. 1981. Yellow nutsedge: A menace in the Corn Belt. U.S. Dep. Agric. Tech. Bull. 1642. 16 pp.Google Scholar
20. Stoller, E. W., Nema, D. P., and Bhan, V. M. 1972. Yellow nutsedge tuber germination and seedling development. Weed Sci. 26:9397.Google Scholar
21. Stoller, E. W. and Wax, L. M. 1973. Yellow nutsedge shoot emergence and tuber longevity. Weed Sci. 21:7681.Google Scholar
22. Taylorson, R. B. 1967. Seasonal variation in sprouting and available carbohydrate in yellow nutsedge tubers. Weeds 15:2224.Google Scholar
23. Thullen, R. J. and Keeley, P. E. 1975. Yellow nutsedge sprouting and resprouting potential. Weed Sci. 23:333337.Google Scholar
24. Thullen, R. J. and Keeley, P. E. 1979. Seed production and germination in Cyperus esculentus and C. rotundus . Weed Sci. 27:502505.Google Scholar
25. Wax, L. M., Stoller, E. W., Slife, F. W., and Andersen, R. N. 1972. Yellow nutsedge control in soybeans. Weed Sci. 20:194201.Google Scholar